KR100735361B1 - Dimming appratus - Google Patents

Abstract

A dimming device is provided to realize uniform dimming effect around an image even though light sources are larger than the image, by changing brightness difference around the image with a brightness panel. A dimming unit includes a backlight unit(110) mounted with a plurality of light sources(112.114,116), an output panel(130) positioned at a light projection part of the backlight unit for displaying an image(132), and a brightness panel(120) positioned between the backlight unit and the output panel and having a light emitting window(122) for transmitting light emitted from the backlight unit at a position corresponding to the image of the output panel. The light emitting window has a size smaller than the image output from the output panel, wherein a center point of the light emitting window corresponds to the image output from the output panel.

Description

Dimming Apparatus {dimming Appratus}

1 is an operation diagram sequentially showing an operation of a conventional liquid crystal display.

2 is an operation diagram sequentially showing the operation of another conventional liquid crystal display.

3 is an operation diagram sequentially showing the operation of each component included in the dimming apparatus according to the present invention.

4 is a plan view sequentially showing the operation of the dimming apparatus according to the present invention.

5 is a cross-sectional view of a dimming apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: dimming device 112: high brightness light source

114: low luminance light source 116: off light source

120: brightness panel 122: light emitting window

130: output panel 132: image

The present invention relates to a dimming apparatus for giving a sense of reality to the image by adjusting the peripheral contrast of the image output through the display, and more particularly, by further comprising a brightness panel for changing the brightness difference around the output image The present invention relates to a dimming apparatus for a display image configured to give a dimming effect to an image smaller than the size of.

 As various display devices have been commercialized and commercialized, improvements in color reproducibility and power consumption have already reached a considerable level of technology, and in recent years, liquid crystal displays have been used as display devices.

In general, the liquid crystal display includes an output panel for displaying an image using light and a backlight unit for generating light. The backlight unit is designed for the primary purpose of uniformly providing light to an effective display area in which an image of the output panel is displayed.

In recent years, in order to improve display quality, various methods for outputting a clearer, more realistic, or three-dimensional image have emerged. In order to give an image clarity and a three-dimensional effect, a method of increasing the contrast ratio by partially increasing the luminance is mainly used, and liquid crystal display devices having such a function have already been released.

Hereinafter, a liquid crystal display according to the related art will be described in detail with reference to the accompanying drawings.

1 is an operation diagram sequentially showing an operation of a conventional liquid crystal display.

As shown in FIG. 1, a conventional liquid crystal display device 1 includes a backlight unit 2 provided with a bar-shaped light source 20, and an output panel 3 for displaying an image 30. It is composed.

The embodiment shown in FIG. 1 is intended to represent a phenomenon in which the surroundings of the image 30 are also slightly brightened when the image 30 such as a light is moved in a dark place, and the image 30 is output panel as in step (a). When displayed on one side of (3), the light source at the point corresponding to the image 30, that is, the third light source, becomes the high brightness light source 22, and the light source located on the left and right sides of the high brightness light source 22, that is, the second light source. The light source and the fourth light source are the low luminance light source 24, and the other light sources except the high luminance light source 22 and the low luminance light source 24 become the off light source 36 that does not emit light.

In step (a), when the image 30 is moved to the right half of the width of the light source 20 to the right (b), the third light source and the fourth light source in which the image 30 spans half the high brightness light source 22 ) And the light sources positioned on the left and right sides of the high brightness light source 22, that is, the second light source and the fifth light source become the low brightness light source 24, and the remaining light sources except for the high brightness light source 22 and the low brightness light source 24. They become the off light source 36 which does not emit light.

In addition, in step (b), when the image 30 moves to the right by about half of the width of the light source 20 in step (c), since the image 30 corresponds only to the fourth light source, the fourth light source is a high luminance light source. The light source positioned on the left and right sides of the high brightness light source 22, that is, the third light source and the fifth light source, become the low brightness light source 24, except for the high brightness light source 22 and the low brightness light source 24. The remaining light sources become off light sources 36 that do not emit light.

As such, when each light source 20 is operated to change the light emission amount according to the position of the image 30, the image 30 is displayed brightly and the surroundings of the image 30 are slightly bright, that is, dimly displayed. The portion away from the predetermined distance is darkened to increase the realism of the image 30.

In this case, when the width of the light source 20 is very small compared to the width of the image 30, the darker portions of the light source 20 appear more precisely, so that the realism appears more clearly. ) Is similar in width, or the width of the image 30 is smaller than the width of the light source 20, there is a disadvantage that the dim area does not appear in detail, the realism is reduced. That is, when the image 30 is positioned to correspond to only one light source 20 as in step (a), since the left and right points of the image 30 correspond only to the low luminance light source 24, the brightness of the left and right sides of the image 30 is different. Appears constantly, but as shown in (b) when the image 30 is positioned to span the two light sources 20, the left and right points of the image 30 are directed to the high brightness light source 22 and the low brightness light source 24. As a result, a difference in brightness is generated at left and right points of the image 30, thereby decreasing the realism.

In addition, as shown in FIG. 1, when the light source 30 is formed in a bar shape, the upper and lower portions of the image 30 correspond to the high luminance light source 22 and thus are brighter than the left and right sides of the image 30. There is a problem that appears.

2 is an operation diagram sequentially showing the operation of another conventional liquid crystal display.

In order to solve the problem of the liquid crystal display shown in FIG. 1, as shown in FIG. 2, a liquid crystal display device 1 in which a plurality of small LEDs 10 are closely arranged has been proposed.

When the image such as a bright light is displayed on the liquid crystal display 10 shown in FIG. 2, the LED at the point corresponding to the position of the image becomes the high brightness LED 12 and the LEDs arranged around the high brightness LED 12. Is the low brightness LED 14, the other LEDs are the off LED 16, it is possible to give a three-dimensional image to the image.

As such, when the liquid crystal display device 10 in which the plurality of small LEDs 10 are densely arranged is used, it is possible not only to display a smaller image, but also to separately operate the LEDs positioned at the left and right sides of the image and the image surroundings. That is, since it is possible to express the area where light is emitted dimly, there is an advantage that the image can be represented more realistically.

However, the conventional liquid crystal display device shown in FIG. 2 has a problem in that a large number of LEDs are required to be mounted, and thus a separate heat dissipation structure must be installed since the manufacturing cost is high, power consumption is high, and high heat is emitted from each LED. In addition, the conventional liquid crystal display device has a problem in that the internal structure is complicated and a lot of circuit components are required because wirings must be separately configured for each LED so as to control each LED independently.

The present invention has been proposed to solve the above problems, even when using a light source larger than the image to be output can give a dimming effect evenly around the image, simplify the internal configuration, power consumption and An object of the present invention is to provide a dimming device for a display image that can solve a heat dissipation problem.

Dimming apparatus according to the present invention for achieving the above object,

A backlight unit to which a plurality of light sources are mounted;

An output panel configured to display the image by the backlight unit being positioned on a light emitting side; And

A brightness panel positioned between the backlight unit and the output panel and having a light emitting window configured to transmit light emitted from the backlight unit at a portion corresponding to the image of the output panel;

It is configured to include.

The light emitting window,

The center point is formed to coincide with the image output from the output panel.

The light emitting window,

It is preferable to form a smaller size than the image output from the output panel.

The light emitting window,

The horizontal cross-sectional shape is deformed according to the shape of the image.

The brightness panel,

The light of the backlight unit is transmitted only to the light emitting window, and the remaining part is configured to not transmit the light of the backlight unit.

The backlight unit,

The light source corresponding to the image of the output panel emits bright light, and the light source around the light source emitting the bright light emits darker light than the light source emitting the bright light, and other light sources do not emit light. Is configured to not.

The light source is,

It is formed in a bar shape and arranged in parallel.

Hereinafter, an embodiment of a dimming apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is an operation diagram sequentially showing the operation of each component included in the dimming apparatus according to the present invention, and FIG. 4 is a plan view sequentially showing the operation of the dimming apparatus according to the present invention.

As shown in FIGS. 3 and 4, the dimming apparatus 100 according to the present invention includes a backlight unit 110 to which a plurality of light sources are mounted, and the backlight unit 110 is located at the light emitting side, and thus an image 132 is provided. The output panel 130 is configured to display and the light emitting window 122 positioned between the backlight unit 110 and the output panel 130 is configured to transmit the light emitted from the backlight unit 110 is the The brightness panel 120 formed only at a portion corresponding to the image 132 of the output panel 130 is configured to be stacked.

The backlight unit 110 is configured in the same manner as the conventional backlight unit 2 shown in FIG. 1 to include a plurality of light sources formed in a bar shape and arranged in parallel for simplifying arrangement and wiring of the light source. It may be configured to include a plurality of light sources formed in a circular or square shape and arranged adjacent to each other.

That is, the backlight unit 110 applied to the present invention may be applied to any backlight unit 110 that has been conventionally implemented. In addition, the output panel 130 applied to the present invention is also the same in configuration and operation as the output panel 130 used in the prior art, the detailed description of the operation and configuration of the backlight unit 110 and the output panel 130 Is omitted.

The dimming apparatus 100 according to the present invention has a feature and an effect in that a brightness panel 120 is provided between the backlight unit 110 and the output panel 130.

The brightness panel 120 transmits the light emitted from the backlight unit 110 to only a portion of the output panel 130, more specifically, the portion where the image 132 is output from the output panel 130. The brightness difference between the image and its surroundings is increased to enhance the sharpness of the image 132.

In addition, when the image 132 is to be output in three dimensions by emitting dark light around the image 132, the backlight unit 110 emits light most brightly at a point corresponding to the image 132. , The light sources in the surroundings emit light at medium brightness, and the remaining light sources do not emit light. That is, when the image 132 is displayed on one side of the output panel 130 as shown in step (a) of FIG. 3, the light source at the point corresponding to the image 132, that is, the third light source 112 is a high brightness light source 112. The light sources positioned on the left and right sides of the high brightness light source 112, that is, the second light source and the fourth light source become the low brightness light source 114, and the other light sources except for the high brightness light source 112 and the low brightness light source 114 are It becomes an off light source 116 which does not emit light.

In this case, the brightness panel 120 passes the light of the light source only to a portion corresponding to the image 132, so that the high brightness light source 22 is disposed above and below the image 30 as in the conventional liquid crystal display device 1 shown in FIG. 1. ) Light does not appear to the outside. Accordingly, since light emitted dimly to give a three-dimensional effect to the image 132 appears only around the image 132, the shape of the image 132 is more realistically output.

In this embodiment, the image 132 is shown in a circular shape and the light emitting window 122 is shown in a square shape so that the image 132 and the light emitting window 122 can be easily distinguished. The shape of is preferably formed along the shape of the image 132.

In step (a), when the image 132 is moved to the right half of the light source width (b), the third light source and the fourth light source in which the image 132 is halved are the high luminance light source 112. The light sources positioned on the left and right sides of the high brightness light source 112, that is, the second light source and the fifth light source become the low brightness light source 114, and the other light sources except for the high brightness light source 112 and the low brightness light source 114 emit light. It becomes the off-light source 116 which does not emit light.

In this case, the brightness panel 120 changes the position of the light emitting window 122 according to the positional change of the image 132, so that light emitted dimly appears always around the image 132. As such, the brightness panel 120 configured to change the position of the light emitting window 122 may be applied in the same manner as the black and white LCD panel applied to the black and white LCD, and may be changed and applied in various ways according to a user's selection. have.

In addition, since the irradiation area of the high brightness light source 112 transmitted to the image 132 is determined according to the size of the light emitting window 122 in the dimming apparatus 100 according to the present invention, the two light sources are high brightness as in step (b). Even if it is the light source 112, the dim light region appearing around the image 132 is output in the same manner as in step (a). That is, since the region of dim light appearing around the image 132 is constantly output regardless of the number of the high brightness light sources 112, the image 132 is more realistically used when the dimming apparatus 100 according to the present invention is used. There is an advantage that can be displayed.

In addition, the dimming apparatus 100 according to the present invention can implement the dimming effect of the image 132 even when using a light source larger than the image 132, the circuit wiring and internal configuration is simplified, the heat generation is reduced, so separate heat dissipation No device is required, and the power consumption can be reduced since the number of light sources can be reduced compared to the same area.

In step (b), when the image 132 moves to the right half of the light source width (c), the image 132 corresponds to the fourth light source only, and thus the fourth light source becomes the high brightness light source 112. The light sources positioned on the left and right sides of the high brightness light source 112, that is, the third light source and the fifth light source become the low brightness light source 114, and the other light sources except for the high brightness light source 112 and the low brightness light source 114 emit light. It becomes the off-light source 116 which does not emit light. In this case, since the operation of the brightness panel 120 for changing the position of the light emitting window 122 is the same as the operation when the operation becomes from step (a) to step (b), detailed description thereof will be omitted.

5 is a cross-sectional view of a dimming apparatus according to the present invention.

As shown in FIG. 5, in the dimming apparatus 100 according to the present invention, the brightness panel 120 is seated on an upper surface of the backlight unit 110, and the output panel 130 is seated on an upper surface of the brightness panel 120. do. In this case, the light emitting window 122 is preferably positioned so that the vertical central axis coincides with the image 132 so that the light emitted from the high brightness light source 112 can be more evenly transmitted to the image 132.

In the present embodiment, the planar shape of the light emitting window 122 is formed to be narrower than the planar shape of the image 132. In this case, since the light of the high-intensity light source 112 is irradiated intensively to the center portion of the image 132, the image In 132, the edge portion is darker than the center portion, so that a three-dimensional effect may be formed in the image 132 itself.

However, the planar shape of the light emitting window 122 is not limited to the embodiment shown in FIG. 5 and may be freely changed. For example, the light emitting window 122 may have a horizontal shape that is the same as the horizontal shape of the image 132, or may be formed larger than the horizontal shape of the image 132. When the horizontal shape of the light emitting window 122 is formed to be the same as the horizontal shape of the image 132, the light of the high luminance light source 112 emitted to the output panel 130 through the light emitting window 122 is transmitted to the image 132. Since the respective portions are irradiated evenly, the shape of the image 132 is clearly output. In addition, when the horizontal shape of the light emitting window 122 is larger than the horizontal shape of the image 132, the light of the high brightness light source 112 emitted to the output panel 130 through the light emitting window 122 is the image 132. Because it is irradiated to the periphery of), it can give a feeling like a color bleeding effect. The shape and size of the light emitting window 122 is preferably freely adjusted according to the user's selection.

As described above, the dimming apparatus 100 according to the present invention can use the existing backlight unit 110 and the output panel 130 as it is, and thus have high utility, and change the shape and size of the light emitting window 122 to change the image. (132) has the advantage that can have a variety of effects.

As mentioned above, although this invention was demonstrated in detail using the preferable embodiment, the scope of the present invention is not limited to a specific embodiment, Comprising: It should be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

Dimming apparatus according to the present invention, even when using a light source larger than the image to be output can give a dimming effect evenly around the image, simplify the internal configuration, can reduce the power consumption and heat generation There is this.

In addition, since the dimming apparatus according to the present invention can utilize a conventional liquid crystal display device as it is, it is highly usable, and there is an advantage that various effects can be applied to an image by simple operation.

Claims (7)

A backlight unit 110 to which a plurality of light sources are mounted; An output panel 130 in which the backlight unit 110 is positioned at a light emitting side to display an image 132; And Located between the backlight unit 110 and the output panel 130, the light emitted from the backlight unit 110 is transmitted to a portion of the output panel 130 corresponding to the image 132. A brightness panel 120 on which the light emitting window 122 is formed; Dimming apparatus 100, characterized in that comprises a. The method of claim 1, The light emitting window, Dimming apparatus 100, characterized in that the center point is formed to match the image 132 output from the output panel 130. The method of claim 1, The light emitting window, Dimming apparatus 100, characterized in that formed in a smaller size than the image 132 output from the output panel (130). The method of claim 1, The light emitting window, Dimming apparatus 100, characterized in that the horizontal cross-sectional shape is configured to be deformed according to the shape of the image (132). The method of claim 1, The brightness panel 120, Dimming apparatus (100), characterized in that the light of the backlight unit 110 is transmitted only to the light emitting window 122, and the remaining portion is not transmitted through the light of the backlight unit (110). The method of claim 1, The backlight unit 110, The light source corresponding to the image 132 of the output panel 130 emits bright light, and the light source around the light source emitting the bright light emits darker light than the light source emitting the bright light. The dimming apparatus 100, characterized in that the light source is configured not to emit light. The method of claim 1, The light source is, Dimming apparatus 100, characterized in that formed in a bar shape arranged in parallel.

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